A bag of potato chips is sealed in a factory near sea level. The atmospheric pressure at the factory is

0.82 millimeters of mercury (mm Hg). The pressure inside the bag is the same. What is the pressure

inside the bag of potato chips in Pascal's (Pa)?

Answer:

Answer: C) Geothermal energy requires high subsurface temperatures that can be found west of the Mississippi River.

Explanation: i took the usa test prep and got it right!!

Answer:

C. Combustion

Explanation:

Combustion- an organic compound containing carbon, hydrogen and sometimes oxygen reacts  with oxygen gas to form carbon dioxide and water.

Answer:

The new volumen of the solution is 500 ml.

Explanation:

A dilution consists of the decrease of concentration of a substance in a solution (the higher the volume of the solvent, the lower the concentration).

We use the formula for dilutions:

C1 x V1 = C2 x V2

V2= (C1xV1)/C2

V2= (400 ml x 2,5 M)/2,0M

V2= 500 ml

Answer: The answer is C

Explanation:

Answer:

A

Explanation:

B is incorrect because asexual reproduction produces an offspring exactly the same as it's parent. Thus the probability does not need to be calculated.

C and D logically do not make sense since B is incorrect and A is correct. I provided the explanation why it is incorrect above.

Thus A is the correct answer.

_________________________________________________

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Answer:

cells; energy

Explanation:

Answer:

All organisms are made up of cells, the basic unit of structure and function. Homeostasis is the ability to do work and allows living things to perform all the functions necessary to live.

Explanation:

Cells are the building blocks of all life and make up the structure and allow an organism to function properly. Homeostasis defines the second term. Hope this helps, have a great one!

Answer:

ΔS(23g NH₃) = 132.2 j/K  ≅ 130 j/K (~2 sig. figs. based on 2 sig. figs. in 23 grams NH₃).

Explanation:

Given ΔHv(NH₃) = 23.4 Kj/mol = 23,400 joules/mole

T = -33.5°C = (-33.5 + 273)K = 239.5K

molar ΔS (at boiling) = ΔHv/T = 23,400 j/mol / 239.5K = 97.70 j/mol·K

ΔS(23g NH₃) = molar ΔS (at boiling) x (moles NH₃) = 97.70j/mol·K  x  (23g/17g·mol⁻¹) = 132.2 j/K ≅ 130 j/K (~2 sig. figs. based on 2 sig. figs. in 23 grams NH₃).

The change in entropy when 23 g of ammonia boils at -33.5 °C is 0.178 kJ/K. To find this, the mass of ammonia was converted to moles, the given temperature was converted to Kelvin, and then the heat of vaporization was divided by the temperature.

To calculate the change in entropy (ΔS) when 23 g of ammonia boils at -33.5 °C, we'll use the heat of vaporization (ΔHv) of ammonia, which is 23.4 kJ/mol. First, we convert the given mass of ammonia to moles by using its molar mass (17.03 g/mol for NH3). This gives us:

23 g / 17.03 g/mol = 1.351 moles of ammonia.

Next, we use the formula ΔS = ΔHv / T, where T is the temperature in kelvin.

Since the boiling occurs at -33.5 °C, we first need to convert this temperature to Kelvin:

T = -33.5 °C + 273.15 = 239.65 K.

The total change in entropy for the vaporization of ammonia is then:

ΔS = (23.4 kJ/mol × 1.351 mol) / 239.65 K,

ΔS = 31.61 kJ / 239.65 K = 0.1318 kJ/K × 1.351 = 0.178 kJ/K (or 178 J/K).

This is the change in entropy for the given amount of ammonia with the correct number of significant digits and units.

Answer:

There are 0.239 moles of water in 1.44 x 10^23 molecules

Explanation:

We use the Avogadro´s Number, whereby in 1 mole of any substance there are 6, 023x10e23 molecules:

6, 023x10e23 molecules-----1 mol water

1.44 x 10^23 molecules -----x=

x= ( 1.44 x 10^23 molecules x 1 mol water)/6, 023x10e23 molecules

x=0,239 mol water

Final answer:

To find the number of grams of magnesium in 7.43×10²² atoms, convert the number of atoms to moles and then to grams using the molar mass of magnesium.

Explanation:

To calculate how many grams of magnesium are in 7.43×10²² atoms of Mg, you need to convert the number of atoms to moles and then to grams. The molar mass of magnesium is 24.30 g/mol, which means that one mole of magnesium atoms weighs 24.30 grams.

First, calculate the number of moles of magnesium using the Avogadro's number and the given number of atoms: (7.43×10²² atoms) / (6.02×10²³ atoms/mol) = 0.123 moles of Mg.

Next, multiply the number of moles by the molar mass to get the grams of magnesium: 0.123 moles × 24.30 g/mol = 2.992 grams of Mg.

Answer: Trade winds are caused by the strong warming and evaporation within the atmosphere around the equator. (1) Around the equator, the warm air rises rapidly, carrying a lot of moisture.

Answer:

The Coriolis Effect.

Explanation:

combination with an area of high pressure, causes the prevailing winds—the trade winds—to move from east to west on both sides of the equator across this 60-degree "belt.

Answer :

(4) The mass of NaCl needed would be, 172.2 grams.

(5) The molality of toluene in the solution is, 10.9 mol/kg

Explanation :

Part 4:

[tex](K_b)[/tex] for water = [tex]0.5100^oC/m[/tex]

[tex]\Delta T_b=1.500^oC[/tex]

Mass of water (solvent) = 1001 g  = 1.001 kg

Molar mass of NaCl = 58.5 g/mole

Formula used :  

[tex]\Delta T_b=i\times K_b\times m\\\\\Delta T_b=i\times K_b\times\frac{\text{Mass of NaCl}}{\text{Molar mass of NaCl}\times \text{Mass of water in Kg}}[/tex]

where,

[tex]\Delta T_b[/tex] = change in boiling point

i = Van't Hoff factor = 2  (for NaCl electrolyte)

[tex]K_b[/tex] = boiling point constant for water

m = molality

Now put all the given values in this formula, we get

[tex]1.500^oC=2\times (0.5100^oC/m)\times \frac{\text{Mass of NaCl}}{58.5g/mol\times 1.001kg}[/tex]

[tex]\text{Mass of NaCl}=172.2g[/tex]

Therefore, the mass of NaCl needed would be, 172.2 grams.

Part 5:

Formula used :

[tex]\text{Molality}=\frac{\text{Mass of toluene}\times 1000}{\text{Molar mass of toluene}\times \text{Mass of benzene (in g)}}[/tex]

Given:

Mass of toluene = 80.1 g

Mass of benzene = 80.0 g

Molar mass of toluene = 92.13 g/mol

[tex]\text{Molality}=\frac{80.1g\times 1000}{92.13g/mole\times 80.0g}=10.9mole/kg[/tex]

Therefore, the molality of toluene in the solution is, 10.9 mol/kg

Answer:

I believe it goes to the left

Explanation:

GOOGLE it or ask me for more questions :)

Answer:

I beleive its diesel engines

Explanation:

Answer:

241.82 kJ is released

Explanation:

The reaction indicates that 483.64 kJ of energy is released when TWO moles of H2O(g) is formed. You're looking to find the amount of energy released when only ONE mole of H2O forms, so that would be half the amount of energy released in the reaction (as one mole is a half of two).

483.64 / 2 = 241.82 kJ

So, your answer would be 241.82 kJ is released.

The formation of 1 mole of water (H_2O) in the given chemical reaction releases 241.82 kJ of energy.

The reaction described in the question, 2H_2(g) + O_2(g) -> 2H_2O(g) with ΔHrxn = -483.64 kJ, shows that the formation of 2 moles of water (H_2O) releases 483.64 kJ of energy.

It's an exothermic reaction, meaning energy is released. That said, if we want to find out the amount of energy released during the formation of 1 mole of water, we divide the total energy by 2.

Thus, the formation of 1 mole of water (H_2O) releases 483.64 kJ / 2 = 241.82 kJ of energy.

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Answer: double-replacement reaction

Explanation:

Answer:

0.97 mole

Explanation:

1 mole will give 6.02×10^23 atoms

Xmole of tungsten will give 5.82×10^23 atom of tungsten

X= 5.82×10^23/ 6.02×10^23

X = 0.97 moles of tungsten

Answer:

0.967 moles

Explanation:

number of moles = number of atoms / avogadro's number

We are given;

Number of atoms = 5.82×10^23

Avogadro's number = 6.02×10^23

Therefore, number of moles

= (5.82×10^23)/(6.02×10^23)

=0.967mol

Therefore, 0.967 moles are equal to 5.82×10^23 atoms

Answer:

Endothermic reaction

Explanation:

Baking a bake batter in an oven is a typical endothermic reaction because it absorbs heat to drive a chemical change.

The heat changes that accompanies a chemical reaction can be categorized as either exothermic or endothermic.

In baking a cake batter, the oven furnishes it with a high temperature which drives a chemical change there in. This kind of reaction that absorbs energy from the environment is an endothermic reaction.

Answer:

Sample Response: Baking a cake requires heat to be applied to the batter in order for it to cook and chemically change into cake. The energy or heat applied is absorbed by the ingredients, so this represents an endothermic reaction.

Answer:

[H3O+] = 4.5 x 10^-3 M

[OH-] = 1.0 x 10^-14 / 4.5 x 10^-3 =2.2 x 10^-12 M

pH = - log [H3O+]= - log 4.5 x 10^-3 =2.3

A solution contains 4.5 × 10⁻⁵M HCl so the concentration of hydronium ion is 4.5 × 10⁻⁵M, pH of the solution is 4.34 and concentration of hydroxide ion is 2.2 × 10⁻⁸M.

pH of any solution will be calculated as pH = -log[H⁺], where

[H⁺] = concentration of H⁺ or H₃O⁺ ion

Given concentration of HCl = 4.5 × 10⁻⁵M

HCl is a strong acid so that it completely dissociates into their ions as:
HCl → H⁺ + Cl⁻

From the stoichiometry, 1 mole of HCl produces 1 mole of H⁺ ion.

Concentration of H⁺ ion = 4.5 × 10⁻⁵M

Now we calculate pH by using the concentration value as:
pH = -log(4.5 × 10⁻⁵)

pH = -(-4.34) = 4.34

Also we know the relation:

[H⁺][OH⁻] = 10⁻¹⁴

[OH⁻] = 10⁻¹⁴ / 4.5 × 10⁻⁵ = 2.2 × 10⁻⁸M

Hence required values are (a)4.5 × 10⁻⁵M, (b)4.34 and (c)2.2 × 10⁻⁸M.

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Burning of wood is a combustion reaction and the metabolism of glucose in your cells is cellular respiratory reaction.

Cellular respiration releases stored energy in glucose molecules and converts it into a form of energy that can be used by cells.

Cellular respiration is the process by which organisms combine oxygen with foodstuff molecules, diverting the chemical energy in these substances into life-sustaining activities and discarding, as waste products, carbon dioxide and water.

Wood as well as many common items that combust are organic (i.e., they are made up of carbon, hydrogen and oxygen). When organic molecules combust the reaction products are carbon dioxide and water (as well as heat)

Similarities:

1. Combustion reaction and metabolism of glucose both require oxygen.

2. Combustion and metabolism of glucose both product carbon dioxide and water

3. Both produces by-products: After cellular respiration and combustion have gotten what they needed from the wood, there will be byproducts from the conversion. In the case of combustion, they are noxious gases like carbon monoxide. In the case of respiration, the sugar molecule is broken into two molecules of pyruvic acid.

4. Catalyst: While breaking apart the bonds to release the stored energy either combustion or sugars for respiration the bonds will not broken by themselves. In each case, a catalyst is required to start the reaction that will break the bonds apart. In the case of combustion, the catalyst is a spark. Wood are flammable, so the spark will ignite the burning, breaking apart the bonds and releasing the energy. For respiration, enzymes are used to break the sugar molecule apart.

Differences

1. Glucose metabolism produces a chemical energy, while combustion produces light and heat energy.

2. Glucose metabolism is an endothermic reaction while combustion is an exothermic reaction (produces heat)

Final answer:

To raise the temperature of a 55.0 g sample of water by 65.0°C, 14943 joules of heat energy is required, calculated using the specific heat capacity of water and the formula for heat energy.

Explanation:

The student asks about the quantity of heat energy needed to raise the temperature of a given sample of water. To calculate this, we will use the formula Q = m × c × ΔT, where 'Q' is the heat energy in joules (J), 'm' is the mass of the water in grams (g), 'c' is the specific heat capacity (4.18 J/g°C for water), and 'ΔT' is the change in temperature (°C).

In this scenario, the mass of water is 55.0 g, and we want to heat it by 65.0 °C. Therefore, we calculate the heat energy required as follows:

Q = 55.0 g × 4.18 J/g°C × 65.0 °C

Q = 55.0 × 4.18 × 65.0

Q = 14943 J

So, 14943 joules of heat energy is required to raise the temperature of a 55.0 g sample of water by 65.0°C.

Answer:

Explanation:

1. geologists using a seismograph to record vibrations moving through the Earth.

2. chemists using a computer program to analyze data from their experiments.

3. physicists using a water tank to observe the way waves interact with a model rehi.

Those three clearly describe the role of technology in science because all those researchers are using those technological equipment's for their scientific research to get an outcome (Result).

Chemists analyzing data, physicists observing wave behavior, and geologists recording seismic activity are all examples of technology being used in science.

The statements that are examples of technology in science include:

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Answer:

Number of atoms = 22.58×1023

Explanation:

Answer:

1600 calories

Explanation:

Data obtained from the question include:

M (mass of water) = 20g

T1 (initial temperature) = 383°C

T2 (final temperature) = 303°C

ΔT (change in temperature) = T1 - T2 = 383 - 303 = 80°C

C (specific heat capacity of water) = 1 calorie/g°C

Q (heat) =?

Using the the equation Q = MCΔT, the heat in calories absorbed by the water can be obtained as follow:

Q = MCΔT

Q = 20 x 1 x 80

Q = 1600 calories

Therefore, the heat absorbed by the water is 1600 calories

Answer

7.2 g of Oxygen are needed to produce 0.400 mole Fe₂O₃ in the following reaction

Explanation:

4 Fe(s) + 3O₂= 2 Fe₂O₃(s)

4 moles of Fe reacts with 3 moles of oxygen to give 2 moles of Fe₂O₃

to get the grams of oxygen needed to produce 0.400 mole Fe₂O₃ in the following reaction

we first get the moles then convert it to grams

3 moles of oxygen are needed to give 2 moles of Fe₂O₃ in the equation thus we have 3:2

let the represent the moles of oxygen that will be intended for 0.400 mole Fe₂O₃ in the following reaction

x:0.4

3:2=x:0.4

3/2 = x/0.4

cross multiply

3x0.4 = 2x

1.2 = 2x

x= 1.2/2 = 0.6

moles is 0.6

1 mole of Oxygen is 12g of Oxygen

0.6 mole of oxygen will give = 0.6 x12= 7.2 g of Oxygen

7.2 g of Oxygen are needed to produce 0.400 mole Fe₂O₃ in the following reaction

To produce 0.400 moles of Fe₂O₃, 95.8 g of O₂ are needed.

Let's consider the following balanced equation.

4 Fe(s) + 3 O₂(g) ⇒ 2 Fe₂O₃(s)

We can calculate the grams of O₂ needed to produce 0.400 moles of Fe₂O₃ considering the following relationships.

[tex]0.400molFe_2O_3 \times \frac{159.69gFe_2O_3}{1molFe_2O_3} \times \frac{3molO_2}{2molFe_2O_3} = 95.8 gO_2[/tex]

To produce 0.400 moles of Fe₂O₃, 95.8 g of O₂ are needed.

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How many grams of O₂ are needed to produce 0.400 mole Fe₂O₃ in the following reaction?

4 Fe(s) + 3 O₂(g) ⇒ 2 Fe₂O₃(s)

Answer:

elements

Explanation:

Answer:

a dozen eggs is 12 eggs. Three dozen is 36 eggs. so no

Explanation:

Answer:

So, the three conditions for a chemical reaction to occur are: Temperature should be above absolute zero. Chemical reactants must be in close, proximate, physical contact. The reaction must have negatie free energy (exergonic) and the system must provide it sufficient energy to overcome the Activation Energy Barrier.

Answer:

B

Explanation:

Answer:

β the answer is β

Explanation:

Answer:

Gold.

Explanation:

The specific heat is the measure to determine which material needs a lesser amount of energy to rise its temperature. Specific heats are described below:

Aluminium: [tex]903\,\frac{J}{kg\cdot ^{\circ}C}[/tex]

Gold : [tex]129\,\frac{J}{kg\cdot ^{\circ}C}[/tex]

Water: [tex]4184\,\frac{J}{kg\cdot ^{\circ}C}[/tex]

Wood: [tex]1300\,\frac{J}{kg\cdot ^{\circ}C}[/tex]

Gold reports the lowest specific heat and, hence, requires the least energy to raise its temperature 7°C.

Answer:

A

Explanation:

Let's illustrate this; see the attachment.

We see that Mrs. Jacobson is pushing to the right with a force of 100 N and there is another opposite force pushing with a force of 15 N. Since these are in opposite directions, we can say that the force opposite to Mrs. Jacobson is pushing the fridge -15 N to the right (instead of 15 N to the left).

The net force would then be:

100 N + (-15 N) = 85 N to the right

The answer is A.

Answer:

85 N to the right

Explanation:

Convention: rightwards positive

Force applied by Mrs. Jacobson:

+100

Force applied by the fridge:

-15

Net force

+100 - 15

+85